Integrated handheld computing and telephony device

ABSTRACT

A method and apparatus for an organizer that may receive a cellular portion to form a cellular telephone is provided. An organizer comprises an organizer component, including a microphone. The organizer further includes an area for receiving an additional component. The area is designed to receive a cellular component, and a connection element is designed to mate the microphone in the organizer component with the cellular component, to use the organizer as a part of a cellular telephone.

CROSS REFERENCE TO RELATED APPLICATIONS

This patent application is a continuation-in-part of and claims a benefit of U.S. patent application Ser. No. 11/231,631, filed Sep. 20, 2005, titled “Integrated Handheld Computing and Telephony System and Services”, which is a continuation of and claims a benefit of U.S. patent application Ser. No. 09/977,871, filed Oct. 14, 2001, titled “Method and Apparatus for Accessing a Contacts Database and Telephone Services”, which is a continuation-in-part of and claims a benefit of U.S. patent application Ser. No. 09/668,123, filed Sep. 21, 2000, titled “Method and Apparatus for Organizing Addressing Elements”, now U.S. Pat. No. 6,781,575, and a continuation-in-part of and claims a benefit of U.S. patent application Ser. No. 09/374,095, filed Aug. 12, 1999, titled “Mobile Computer System Designed for Wireless Communication Expansion”, now U.S. Pat. No. 6,516,202, the relevant contents of each of these applications herein being incorporated by reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to mobile computer systems, and more specifically, to a handheld computer system.

2. Description of the Related Art

A cellular telephone is becoming an essential tool for more and more people. It is useful for being available while one is traveling, or out of the office. Most people also have organizers. These organizers range from paper-based systems such as the Day Runner to electronic handheld computers, such as the PalmPilot. The organizer is useful to keep a daily schedule, as well as for an address book. For many, if they wish to call someone on the cellular telephone, the user must look up the telephone number in the user's organizer, and then dial the number on the physically separate cellular telephone. This is inconvenient.

One prior art solution to this problem is the Qualcomm pdQ Smartphone, illustrated in FIG. 1. The Smartphone has a display indicator showing telephone mode status. The Smartphone also has a closed keypad with push-buttons for dialing telephone numbers. The Smartphone further includes status lights, a speaker, and a microphone.

FIG. 2 is an illustration of the prior art phone, open, showing the organizer screen. When the keypad is opened, an organizer is shown. The organizer includes a screen, a writing area, and soft buttons.

The Smartphone combines some of the functionality of an organizer and a telephone. However, having a Smartphone means that any time someone wishes to have an organizer with them, they must also carry the telephone. Furthermore, there is a separate dialing keypad for the telephone and a separate input area for the organizer, such that manufacturing the Smartphone is expensive. Therefore, an improved method and apparatus for combining the functionality of an organizer and a cellular telephone would be advantageous.

SUMMARY OF THE INVENTION

An organizer designed for a cellular telephone expansion is described. An organizer comprises an organizer component, including a microphone. The organizer further includes an area for receiving an additional component. The area is designed to receive a cellular component, and a connection element is designed to mate the microphone in the organizer component with the cellular component, to use the organizer as a part of a cellular telephone.

The features and advantages described in the specification are not all inclusive and, in particular, many additional features and advantages will be apparent to one of ordinary skill in the art in view of the drawings, specification, and claims. Moreover, it should be noted that the language used in the specification has been principally selected for readability and instructional purposes, and may not have been selected to delineate or circumscribe the inventive subject matter.

BRIEF DESCRIPTION OF THE DRAWINGS

The disclosed embodiments have other advantages and features which will be more readily apparent from the following detailed description and the appended claims, when taken in conjunction with the accompanying drawings.

The present invention is illustrated by way of example, and not by way of limitation, in the figures of the accompanying drawings and in which like reference numerals refer to similar elements and in which:

FIG. 1 is an illustration of a prior art phone.

FIG. 2 is an illustration of the prior art phone, open.

FIG. 3A is an exploded view of one embodiment of the telephone according to the present invention.

FIG. 3B is a back view of the organizer.

FIG. 4 is a block diagram of the hardware elements of the system.

FIG. 5A is a flowchart of the process of integrating the cellular component and the organizer component.

FIG. 5B is a diagram of the interconnections formed between the telephone element and the organizer element.

FIG. 6 is a block diagram of the software elements of the system.

FIG. 7 is a diagram showing the screen options of the system.

FIG. 8A shows screen shots as for a dialing process.

FIG. 8B shows screen shots as the system is navigated through an incoming call alert.

FIG. 8C shows one embodiment of screen shots for a call history.

FIG. 9A is a flowchart showing one embodiment of the programming of voicemail access.

FIG. 9B shows one embodiment of screen shots for voicemail control.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

An organizer designed to receive a cellular component, and thereby form a unitary cellular telephone is described. The organizer is an independent handheld computer which functions without the cellular component. However, when the cellular component is inserted into the organizer, a single telephone is formed. This is advantageous because it simplifies development of both the organizer component and the cellular component, because it permits a single organizer to be coupled to a plurality of telephones for different frequencies/standards so that the cellular telephone may be used in different parts of the world, and because the user need not carry a full cellular telephone around, if he or she wishes to have an organizer available.

The present specification discusses an organizer component and a cellular component. The organizer component may be any handheld computer, or small size electronic device. The organizer component generally includes a processor, a screen, and a way of interacting with a user. For one embodiment, the organizer component uses the Palm Operating System from 3Com Corporation.

The specification further discusses a cellular component. The cellular component includes any wireless communication device. For one embodiment, the cellular component may be a mobile telephone, such as a TDMA, CDMA, GSM, PCS, DCS, digital or other telephone. The cellular component may be enabled to make voice connections and/or digital data connections.

FIG. 3A is an exploded view of one embodiment of the telephone according to the present invention. The telephone includes two components, the organizer component 300 and the cellular component 350. The organizer component 300 includes a screen 305. The screen 305 may display text, images, or software generated keys, which are drawn on the screen. The screen 305 may display other types of information as well.

The organizer 300 further includes a writing area 310, on which a user may enter information. For one embodiment, the user may also enter information by writing directly on screen 305.

The organizer 300 further includes keys 315 for controlling the display of the organizer 300. For one embodiment, the keys 315 may be set to bring up various applications. For one embodiment, the keys 315 may be user programmable.

The organizer 300 includes a serial connection to couple the organizer to a computer system. For one embodiment, the serial connection may be used to synchronize the organizer with the computer system. For one embodiment, the serial connection is a Universal Serial Bus (USB) connection. For another embodiment, the serial connection is an RS-232 connection. Alternative types of connections may be used.

The organizer 300 further includes a void 320 in the back area of the organizer 300. The void 320 is designed to receive an extra element. For one embodiment, the extra element may be a simple place holder. For another embodiment, the extra element may be something else. The void 320 includes a connection portion 325. The connection portion 325 leads signals and other connections from the organizer component to the void 320. FIG. 3B shows a back view of the organizer, showing the connection portion 325 at the bottom of the void 320.

For one embodiment, at least some of the connections may be connected from the processor on the organizer component. For one embodiment, at least one connection may be directly coupled from the serial connection of the organizer component, used for synchronizing the organizer with a computer system. For one embodiment, the connection portion 325 is designed to mate with the extra element placed in the void 320.

For one embodiment, the organizer 300 further includes a microphone 330. The input of the microphone 330, for one embodiment, is coupled directly to the connection portion 325, such that any sound picked up by the microphone is transmitted to the extra element that is connected to the connection element 325 of the organizer 300.

For one embodiment, a cellular element 350 is the extra element that may be coupled into the void 320. The cellular element 350 includes a control button 355, for one embodiment, a power. button. For one embodiment, the control button 355 may have multiple functionalities, or there may be multiple control buttons 355.

For one embodiment, the cellular element includes a voice connection button 356 and a data connection button 357. The voice connection button 356 is used to initiate a voice connection, to receive or place a voice telephone call. For one embodiment, when the user pushes the voice connection button 356 a dialing screen is displayed, permitting the user to select a telephone number for a voice connection. The data connection button 357 is used to initiate a data connection, for access to the World Wide Web, e-mail, fax, or other data transfer. When the user pushes the data connection button, a data screen is displayed, permitting the user to connect to e-mail, the Web, a fax interface, or other data interface.

The cellular element 350 further may include a status indicator 360. The status indicator 360 may be a light, a display panel, or other indicator of status. For one embodiment, the status indicator 360 may include multiple lights or other indicators. For one embodiment, if the status indicator 360 is a single light that can display multiple colors such that different colors indicate different statuses.

The cellular element 350 may further include an antenna 370 and a speaker 365. The cellular element 350 includes a connector 385. A lower portion 380 of the cellular element 350 is sized such that it fits into the void 320 of the organizer 300. When the lower portion 380 is inserted into the void 320, the connector 385 is coupled to the connection portion 325, thereby completing a circuit. Signals are thus routed between the cellular element 350 and the organizer 300.

The cellular element 350, for one embodiment, does not include a microphone. Rather, when the cellular element 350 is mated to the organizer 300, the microphone 330 in the organizer 300 is used by the cellular element 350.

FIG. 4 is a block diagram of the hardware elements of the system. The expansion slot 410 is the connection portion 325 of the organizer 300 (not shown.) The expansion slot 410 is coupled to the organizer extension 420.

The organizer extension 420 is hardware which is part of the cellular element, but is under the control of the organizer, and behaves as an extension of the organizer. The organizer extension 420 includes read only memory (ROM) 425, and a bidirectional communication medium. For one embodiment, the bi-directional communication medium is a Universal Asynchronous Receiver Transmitter (UART) 430. For another embodiment, the bidirectional communication medium may be a FIFO, Dual-port, RAM, registers, or other such devices.

The ROM 425 includes the code to install a portion of the software on the organizer to allow the organizer to interface with the cellular element, and to uninstall the installed software. For one embodiment, the ROM 425 further includes software which is executed in-place by the organizer.

The phone specific hardware 440 is the hardware in the cellular element that is used to control specific telephone functionalities. The phone specific hardware 440 may include: a radio frequency (RF)/antenna 445, an IF logic 450, a power connection 470, a coder/decoder/speaker unit 465, a microcontroller 460, and other functions 455.

For one embodiment, the microcontroller 460 includes a digital signal processor (DSP). The microcontroller 460 interfaces with the organizer, via the organizer extension slot 410 and the UART 430. The microcontroller 460 also controls the functions of the other elements of the cellular element. The microcontroller 460 sends an interrupt signal 485 to the organizer when a telephone call is received. For one embodiment, the “telephone call” can include voice, data, or fax connections.

For one embodiment, the microcontroller 460 also monitors the battery level signal 490. If the battery level signal 490 indicates that the organizer does not have a battery in or if the battery level is below a threshold, the microcontroller 460 does not send the interrupt signal 485. Generally, when a call is received, the organizer is asked to respond. Using the battery level signal 490, the organizer is not asked to respond when the battery level is below the threshold. This prevents the stand-by power from being exhausted, possibly leading to memory loss.

The codec/speaker 465 receives a microphone signal 495 from the organizer expansion slot 410. For one embodiment, the microphone signal 495 is connected directly through the organizer from a microphone 415 in the organizer. The organizer itself does not touch the microphone signal 495, but merely passes it to the codec/speaker 465. The speaker itself is in the cellular element. In this way, the microphone 415 in the organizer is integrated into the codec/speaker 465 in the cellular element.

The power 470 is a battery or other storage device to maintain power to the microcontroller 460 and the other elements of the cellular element. The power 470, for one embodiment, receives a power connection 498 from the organizer. The power connection 498 may provide auxiliary power, operational power, or charging power to the cellular element. For one embodiment, the power connection 498 is connected through the organizer expansion slot 410, to an organizer cradle slot. One of the interconnections between the organizer and the cradle is a power connection. This power connection is routed through the organizer, without being used within the organizer, to couple the power signal 498 to the power element 470, when the cellular element is coupled to the organizer. The power connection is used to charge the battery in the cellular element. For one embodiment, the power element 470 may further include a backup power source, such as a battery or capacitor, to maintain memory or otherwise maintain necessary data within the phone-specific hardware 440, if the cellular element has not been charged in some period.

FIG. 5A is a flowchart illustrating one embodiment of the process of integrating the cellular component and the organizer component to form a single unit. The process starts at block 510, when the user couples the cellular component into the slot of the organizer component.

At block 515, the organizer recognizes that a card has been inserted into the expansion slot. For one embodiment, a hard interrupt is sent to the organizer when a card mates with the card connection of the organizer.

At block 520, the Set Up application software is copied to RAM from the cellular component's ROM.

At block 525, the organizer calls the Set Up software with an install parameter. The cellular component queries the organizer which language is being run by the organizer. For one embodiment, the organizer may have multiple language support. Based on the language supported by the organizer, the appropriate language software is selected to be uploaded and moved into RAM.

At block 530, the Set Up software uploads any software needed to interface the cellular component and the organizer. For one embodiment, this may include operating software, interrupts, an updated address book, and other software. For one embodiment, portions of the software executed by the organizer are executed in-place directly from the cellular component's memory.

At block 535, the newly formed cellular telephone unit, consisting of the organizer and the cellular element, can be used. In this period, the user can place telephone calls, receive calls, use a dialing screen, or access data wirelessly from the cellular telephone unit. For one embodiment, the overall function of the organizer is not impacted by the presence of the cellular element. However, if a telephone call is received, the cellular element interrupts or wakes up the organizer, and otherwise interacts with the organizer to permit a user to take the telephone call.

At block 540, the system determines whether the cellular element has been removed from the slot. For one embodiment, this is an interrupt driven system, and the organizer does not test this function. Rather, the organizer recognizes the removal of the cellular element.

At block 545, the organizer calls on the Set Up application with a remove parameter, to remove all software, hooks, and anything else uploaded to operate the cellular element.

At block 550, after the Set Up application has finished the removal process, the organizer deletes the Set Up application. The organizer is now returned to the same state it was operating in prior to the insertion of the cellular element. The process ends at block 555.

FIG. 5B is a diagram of one embodiment of the connector pin list for the expansion slot. The pins include a low battery pin indicator, pin 63. As described above, the low battery indicator signal on pin 63 indicates when there is no battery in the organizer or when the battery is below a threshold level. For one embodiment, this results in the cellular element not “waking up” the organizer when a telephone call is received.

The pins include microphone pins, pins 60 and 61. Microphone pins transmit the microphone signal from the organizer to the codec of the cellular element. By transmitting the microphone signal as a differential pair, the effects of noise are reduced.

The pins further include VDOCK, pins 18 and/or 52, or docking voltage. This signal transmits the power connection from the cradle to the cellular component, as described above.

For one embodiment, the physical header is similar to the pins of PCMCIA standard. This is advantageous because it permits a cellular component to use an off-the-shelf connector. For one embodiment, the key of the socket is different from PCMCIA standard, such that a PCMCIA card can not be accidentally inserted into the organizer.

Of course, it is to be understood that this is merely an exemplary pin out, and the pin order as well as content could be changed without changing the present invention.

FIG. 6 is a block diagram of the software elements of the cellular element's system. The software includes software that executes on the organizer 610 and software that executes on the cellular element 650. For one embodiment, the software that executes on the organizer 610 may be executed in place from the cellular component's memory. For another embodiment, the software that executes on the organizer 610 may be uploaded to the organizer memory, and executed from there.

The software that executes on the organizer 610 includes a phone application 620. The phone app 620 controls the user interface, database, and system level operations of the cellular element. The software that executes on the organizer may further include an address book 625. For one embodiment, the organizer includes an address book that is changed in format when the cellular element is coupled to the organizer. For example, for one embodiment, the address book displays a single-key dialing ability when the cellular element is coupled to the organizer.

Other applications 630, such as conference calling, e-mail, web browser, etc. may be part of the software that runs on the organizer 610. Any application that is altered by the connection of the cellular element to the organizer would be included in this list.

The software that executes on the cellular element 650 interfaces with the software that executes on the organizer 610 using an application programming interface (API) 640. For one embodiment, the API 640 runs over serial communications, over the bi-directional communications medium.

For one embodiment, the software that executes on the cellular element 650 runs on the microcontroller in the cellular element. For one embodiment, the software that executes on the cellular component 650 includes the phone OS 660, cellular telephony protocol stack 670, and hardware control and interface 680. The cellular telephony functions include the cellular protocol stack, frequency/code selection, control of data services, etc. For one embodiment, functions directly related to making a connection to the network are handled in the software that executes on the cellular component 650. Functions for database management, storing and retrieving information about the connection, etc. are executed on the organizer.

FIG. 7 is a diagram showing one embodiment of the screen options of the system. The base views 710 include three screens, the speed dial screen 715, phone pad 720, and dial log 725. The speed dial screen 715 permits access to an edit screen 730, on which the user can edit the list of speed-dialed numbers, an edit entry screen 735 which permits editing of an existing entry, and a find number screen 740 which permits a search of existing telephone numbers, in the address book and elsewhere, to add to an entry. The phone pad 720 includes software generated numbers to dial. The dial status screen shows the status of current calls. The dial log screen 725 includes a log of past dialed and/or received telephone calls. The dial log screen 725 permits access to the call details screen 760. The dial status screen 750 displays information about an ongoing call or calls. For one embodiment, the dial status screen 750 is automatically displayed on the viewer screen whenever a voice call(s) is established.

FIG. 8A shows one embodiment of screen shots for a dialing process. The opening screen 805 indicates that a connection has been established with a cellular service. For one embodiment, this screen appears when the cellular element is first coupled to the organizer and/or when the cellular element is initially turned on.

The base screen is the speed dialing screen 810. Programmed speed dialing screen 810 includes identifiers for each of the individuals programmed into the speed dialer. The identifiers are designated by the user, and may be nicknames, or other identifiers. For one embodiment, the top left hand slot is a voicemail slot.

On the bottom left of the speed dialing screen 810 are indicated the other base screens, the dial pad screen 815, and the call history screen (not shown). An option to edit the speed dial listings is also provided.

At the top of the speed dialing screen 810, and every other base screen for one embodiment, are indicators. There is a time indicator, a message indicator, a signal strength indicator, and a battery strength indicator. For one embodiment, there are two message indicators, indicating either a voicemail message or a text/e-mail message. For one embodiment, the message indicator may further include service provider information as well.

From the speed dialing screen 810, if a user presses a speed dial button, the screen changes to the dialing screen 820. The dialing screen 820 indicates the status of the call, as well as the identity of the person called. For one embodiment, there is a hang-up option. When the call is connected, the call active screen 830 is displayed, showing the connection time, and providing the options of hanging up, placing the call on hold, placing a second call, or engaging the key pad (to dial additional numbers, such as for a credit card call, voicemail call, dialing an extension, etc.)

If the user selects “second call”, the speed dialing screen 850 appears, although the user may optionally switch to another screen. The first call is automatically placed on hold. The second call is then dialed. The-two-call dial status screen 855 indicates the status of both calls. For one embodiment, only one call can be active at any time. For another embodiment, multiple calls may be simultaneously active, and in such a case, the calls may be conferenced together.

An alternative base screen is the dialing pad 815. The dialing pad 815 displays the software generated dialing keys. When the user starts dialing, the dialing screen 825 is displayed, and the numbers dialed replace the status indicators at the top of the screen.

Of course, these screens are sample screens only. Altering the location or display format of any of this data is optional, and would not change the present invention.

FIG. 8B shows screen shots as the system is navigated through an incoming call alert. The incoming call alert displays a call alert screen 865. For one embodiment, if there is a caller identification enabled, the system determines the telephone number of the caller. If that telephone number appears in the call list, or on any other system that indicates the identity of the caller, the incoming screen 865 is displayed, showing the telephone number and identity of the caller. If the identity of the caller is unknown, the telephone number is displayed as shown on screen 868. And if the caller identification is not enabled, no identifier is displayed, as shown on screen 870.

The user may chose to answer the call, by pushing the answer button, or ignore the call. For one embodiment, the answer button may be a software generated button. For one embodiment, the user may also accept or ignore the call by pushing a built-in button on the cellular element. If the user ignores the call, and voicemail is enabled on the system, the call is automatically transferred to voicemail. For one embodiment, if the user ignores the call, the call may be transferred to a user designated destination. A missed call screen 883 is displayed, showing the identity, telephone number, time and date of call. The user may acknowledge the missed call, or may automatically return the call, if caller identification is enabled. For one embodiment, if the caller left a message on voicemail, a third option is displayed, permitting the user to listen to the voicemail left by the caller, shown on voicemail screen 886.

If the user answers the call, the active call screen 873 is shown. From here, the user can place the caller on hold, hang up, dial a second call, or receive a second call. When a second call is received, the first call is placed on hold, for one embodiment. In this way, the maximum amount of information is displayed to the user, regarding the status of various calls and systems.

FIG. 8C shows one embodiment of screen shots for a call history. For one embodiment, the call history screen 890 shows available information about calls made and calls received. For one embodiment, only the name and telephone number are displayed. For one embodiment, the list is ordered by time/date of the call. For another embodiment, the list may be ordered by name. For one embodiment, the user may select details. The details screen 893 shows further available information about the call. The details screen 893 shows one or more of the following: name, number, date, time, duration of call, and type of call. For one embodiment, the user may edit the information displayed in the detail, specifically by adding/changing the name information. This would enable a user to have a more complete call history information.

The user can further save information from the call history. If the user selects the “save” button, a save screen 896 is displayed. This save screen 896 permits the user to automatically add data from the history entry to his or her speed dial list and/or address book. For one embodiment, if other programs are supported, the user may further add the data into other programs, such as a contact tracker, etc. For one embodiment, the call history may interface with a contact tracking application, and automatically update information in the contact tracking application, as calls are made and received.

FIG. 9A is a flowchart showing one embodiment of adding a voice mailbox to the speed dial of the system for voicemail access. The process starts at block 910.

At block 915, the user selects to add a new voicemail account to the speed dialing list. Voicemail programmed speed dial buttons are treated differently from other speed dial buttons.

At block 920, the user is prompted to enter the telephone number and/or password for the voicemail account. For one embodiment, the user is permitted to use “pause” characters or “wait for tone” characters, to dial the full voicemail access code. For another embodiment, when the user first pushes the voicemail button, the telephone number is dialed, and when the user pushes the voicemail button for a second time, the password is dialed. Both of these numbers are entered at this stage.

At block 925, control screen is displayed. The control screen includes each of the commands that are generally available in a voicemail system, such as previous message, next message, back, skip message, delete message, forward message, back to the beginning, reply to message, etc. For one embodiment, a subset of these commands may be made available. For another embodiment, the user may alter this listing, and may create new commands.

At block 930, the user is prompted to enter a command or command sequence for each of the commands that are available in the voicemail system. For example, in a voicemail system, pressing the “3” key may mean “delete message.” The user can enter the number “3” underneath the command key, to program the command. In other systems, the pressing the “7” key twice may be the code to “delete message.” The user can enter whatever key combination works for the specific voicemail system.

At block 935, after the user finishes programming the voicemail system, the user is prompted to name the speed dial button. For one embodiment, the default name is “voicemail.” However, users may have multiple voicemail accounts, and may wish to have more descriptive names. At block 940, the process ends. The programming of the voicemail access is now complete, and the user can access the voicemail system by pressing the speed dial button.

FIG. 9B shows one embodiment of screen shots for voicemail control. The voicemail button 950 is shown on speed dialing screen 955. When the user selects the voicemail button 950, the voicemail number programmed in by the user is dialed. For one embodiment, the dialing screen is shown (see screen 820). When the call connects the voicemail control screen 960 is displayed. The voicemail control screen 960 includes the controls available for the voicemail system. Control screen 960 is an exemplary screen, showing the controls: prev(ious message), back (to the beginning of the message), pause, next (message), del(ete message), reply (to message), forward (message), and dial pad, for entering additional commands. Other layouts or sets of commands may be used. However, using this type of voicemail control screen 960 for all voicemail applications simplifies access to multiple voicemail accounts.

In the foregoing specification, the invention has been described with reference to specific exemplary embodiments thereof. It will, however, be evident that various modifications and changes may be made thereto without departing from the broader spirit and scope of the invention as set forth in the appended claims. The specification and drawings are, accordingly, to be regarded in an illustrative rather than a restrictive sense. 

1. A computing device configurable for use as a telephone, the computing device comprising: a control switch configured to include a first state and a second state, the first state corresponding to enabling a speaker in the computing device and the second state corresponding to muting the speaker in the computing device; a microcontroller configured to generate a telephone call interrupt signal in response to an antenna receiving a radio frequency signal corresponding to a telephone call; and a processor in the computing device configured to generate a ring tone signal in response to receiving the telephone call interrupt signal, the ring tone signal played through the speaker in response to the control switch set in the first state and not played through the speaker in response to the control switch set in the second state.
 2. The device of claim 1, wherein the ring tone signal enables a non-sound notification in response to control switch set in the second state.
 3. The device of claim 2, wherein the non-sound notification comprises an notification on a display of the computing device.
 4. The device of claim 1, wherein the switch is one from a group consisting of a button, a slider, and a rocker.
 5. The device of claim 1, wherein the switch comprises a software switch.
 6. A computing device including an integrated telephone subsystem, the computing device comprising: a selection enabled display; a switch configured to retrieve a telephone application; and a processor configured to execute the telephone application, the telephone application further configured to generate a telephone dial pad screen on the selection enabled display, the telephone dial pad screen having a plurality of keys, and generate, for each key selected through the selection enabled display, a dual tone multi frequency (DTMF) signal.
 7. The computing device of claim 6, wherein the switch is configured to retrieve the telephone application in response to user input.
 8. The computing device of claim 6, wherein the switch is configured to retrieve the telephone application in response to the telephone subsystem receiving a telephone call.
 9. The computing device of claim 6, wherein the selection enabled display comprises a touch display.
 10. The computing device of claim 6, wherein the telephone application is further configured to generate a caller identification screen to replace the telephone dial pad screen in response to establishing a telephone call.
 11. A wireless communication system comprising: a computing device including an integrated wireless communication component; a first application button integrated with the computing device and configured to execute a voice application associated with the wireless communication component, the voice application generating a voice interface screen for a display of the computing device; and a second application button integrated with the computing device and configured to execute data application associated with the wireless communication component, the data application generating a data interface dialog screen on the display of the computing device.
 12. The system of claim 11, wherein the first application button comprises a mechanical switch.
 13. The system of claim 11, wherein the second application button comprises a mechanical switch.
 14. The system of claim 11, wherein the display is a selection enabled display.
 15. The system of claim 14, wherein the selection enabled display is a touch display.
 16. The system of claim 14, wherein the first application button comprises a software button on the selection enabled display.
 17. The system of claim 14, wherein the second application button comprises a software button on the selection enabled display.
 18. The system of claim 14, wherein the voice application comprises a voicemail application.
 19. A voicemail application configured for execution with a telephone application in a computing device, the voicemail application comprising: voicemail account file configured to store a plurality of voicemail telephone numbers and configured to generate a voicemails listing screen on the display of the computing device the stored plurality of voicemail telephone numbers; and a controls file configured to store, for each input voicemail telephone number, a plurality of voicemail commands associated with the input voicemail telephone number and configured to generate, in response to selection of a voicemail telephone number from the plurality of voicemail telephone numbers, a voicemail control screen on the display of the computing device the stored plurality of voicemail commands for the selected voicemail telephone number.
 20. The voicemail application of claim 19, wherein the voicemail account file includes for at least one voicemail telephone number a password corresponding to that voicemail telephone number.
 21. The voicemail application of claim 20, wherein the voicemail account file includes for the at least one voicemail telephone number a character associated with generating a pause between the voicemail telephone number and the password.
 22. The voicemail application of claim 19, wherein the plurality of voicemail commands is received in the computing device as a file.
 23. The voicemail application of claim 19, wherein the plurality of voicemail commands is received in the computing device through user input. 